• Fundamental aspects
• 13 min
  1. Inflammation and tissue homeostasis

  • Prof. Herman Waldmann
• 43 min
  2. Introduction to the immune system

  • Prof. Herman Waldmann
• 51 min
  3. Hematopoiesis: the making of an immune system

  • Prof. Paul J. Fairchild
• 47 min
  4. Inflammation: purposes, mechanisms and development

  • Prof. Pietro Ghezzi
• 22 min
  5. Phagocytosis

  • Dr. Eileen Uribe-Querol
• 27 min
  6. Regulated cell death mechanisms and their crosstalk with the immune system 1

  • Dr. Luis Alberto Baena-Lopez
• 25 min
  7. Regulated cell death mechanisms and their crosstalk with the immune system 2

  • Dr. Luis Alberto Baena-Lopez
• 35 min
  8. Lymphoid architecture - the meeting places that spark the body’s immune reactivity: design and dynamics 1

  • Dr. Simon Hunt
• 30 min
  9. Lymphoid architecture - the meeting places that spark the body’s immune reactivity: design and dynamics 2

  • Dr. Simon Hunt
• 62 min
  10. Lymphocyte homing: getting lymphocytes to the right place at the right time

  • Prof. Ann Ager
• Innate immunity
• 43 min
  11. Cells of the innate immune system

  • Prof. Kevin Maloy
• 29 min
  12. Microbial recognition and the immune response

  • Dr. Dana Philpott
• 47 min
  13. Toll-like receptor signalling during infection and inflammation

  • Prof. Luke O'Neill
• Intercellular mediators
• 44 min
  14. Chemokines

  • Dr. James E. Pease
• 61 min
  15. Cytokines

  • Prof. Iain McInnes
• 41 min
  16. IL-1 family cytokines as the canonical DAMPs of the immune system

  • Prof. Seamus Martin
• 36 min
  17. Glycans at the frontiers of inflammation, autoimmunity and cancer

  • Prof. Salomé S. Pinho
• 36 min
  18. Glycoimmunology

  • Prof. Paula Videira
• 44 min
  19. The complement system in innate and adaptive immunity: normal functioning of the complement system

  • Prof. Steven Sacks
• 46 min
  20. The complement system in innate and adaptive immunity: diseases mediated by the complement system

  • Prof. Steven Sacks
• Adaptive immunity B cells
• 28 min
  21. Antigen recognition in the immune system

  • Prof. Herman Waldmann
• 26 min
  22. B cell biology

  • Prof. Richard Cornall
• 34 min
  23. Antibody structure and function: antibody structure

  • Dr. Mike Clark
• 42 min
  24. Antibody structure and function: antibody function

  • Dr. Mike Clark
• 60 min
  25. Antibody genes and diversity

  • Dr. Mike Clark
• 24 min
  26. In vivo antibody discovery and hybridoma technology

  • Prof. Dr. Katja Hanack
• 35 min
  27. Antibody engineering: beginnings to bispecifics and beyond

  • Dr. Ian Wilkinson
• 32 min
  28. The role of immunoglobulin superfamily domains in interactions of immune cells

  • Prof. Neil Barclay
• 39 min
  29. The immunobiology of Fc receptors

  • Prof. Mark Cragg
• 38 min
  30. Immunoreceptors

  • Prof. Anton van der Merwe
• 24 min
  31. Affinity, avidity and kinetics in immune recognition

  • Prof. Anton van der Merwe
• Adaptive immunity T cells
• 39 min
  32. The thymus and T cell development: a primer

  • Prof. Georg Holländer
• 30 min
  33. Lineage decisions in the thymus: T cell lineage commitment

  • Prof. Bruno Silva-Santos
• 35 min
  34. Lineage decisions in the thymus: αβ and γδ T cell lineages

  • Prof. Bruno Silva-Santos
• 39 min
  35. CD4 T cell subsets

  • Dr. Brigitta Stockinger
• 33 min
  36. Cytotoxic T lymphocytes

  • Prof. Gillian M. Griffiths
• 27 min
  37. Gamma delta T-cells

  • Prof. Bruno Silva-Santos
• 39 min
  38. Tfh and Tfr cells

  • Prof. Luis Graca
• 30 min
  39. Tissue resident memory T cells (TRM)

  • Dr. Marc Veldhoen
• 43 min
  40. Mathematical modeling in immunology

  • Prof. Ruy M. Ribeiro
• The importance of the MHC in immunity
• 42 min
  41. The MHC and MHC molecules 1

  • Prof. Jim Kaufman
• 51 min
  42. The MHC and MHC molecules 2

  • Prof. Jim Kaufman
• 24 min
  43. Natural killer cells

  • Dr. Philippa Kennedy
• 34 min
  44. Human NK cells

  • Prof. Lorenzo Moretta
• 45 min
  45. Unconventional T cells: a major component of the human immune system with untapped therapeutic potential

  • Prof. Dale Godfrey
• 41 min
  46. NK cells in viral immunity

  • Prof. Lewis Lanier
• Lymphocyte activation
• 30 min
  47. Signal transduction by leukocyte receptors

  • Dr. Omer Dushek
• 38 min
  48. Immunological memory 1

  • Prof. David Gray
• 18 min
  49. Immunological memory 2

  • Prof. David Gray
• 48 min
  50. Studying immune responses “one cell at a time”

  • Dr. Mir-Farzin Mashreghi
• Major cellular partners in immunity
• 56 min
  51. The mononuclear phagocyte system - tissue resident macrophages: distribution and functions

  • Prof. Emeritus Siamon Gordon
• 68 min
  52. The mononuclear phagocyte system: tissue resident macrophages - activation and regulation

  • Prof. Emeritus Siamon Gordon
• 51 min
  53. Dendritic cells: professional antigen presenting cells

  • Prof. Paul J. Fairchild
• 31 min
  54. Mucosal immunology

  • Prof. Daniel Mucida
• Immunological tolerance and regulation
• 33 min
  55. Self-tolerance

  • Prof. Herman Waldmann
• 37 min
  56. Tolerance and autoimmunity

  • Prof. Emerita Anne Cooke
• 35 min
  57. The balance between intestinal immune homeostasis and inflammation

  • Prof. Dr. Janneke Samsom
• Translational immunology - immune deficiency
• 24 min
  58. Primary immunodeficiency disorders

  • Dr. Smita Y. Patel
• 36 min
  59. Changes in innate and adaptive immunity during human ageing 1

  • Dr. Roel De Maeyer
• 23 min
  60. Changes in innate and adaptive immunity during human ageing 2

  • Dr. Roel De Maeyer
• 35 min
  61. The aging immune system

  • Prof. Ana Caetano
• Translational immunology - protection against pathogenic microbes
• 45 min
  62. Immune responses to viruses

  • Prof. Paul Klenerman
• 27 min
  63. HIV and the immune system

  • Prof. Quentin Sattentau
• 24 min
  64. COVID-19: the anti-viral immune response

  • Prof. Danny Altmann
• 38 min
  65. Bacterial immunity

  • Prof. Thomas S. Wilkinson
• 36 min
  66. Bacterial immune evasion

  • Prof. Christoph Tang
• 40 min
  67. The immunology underlying tuberculosis

  • Prof. Thomas R. Hawn
• 32 min
  68. Innate immunity to fungi

  • Prof. Gordon D. Brown
• 41 min
  69. Adaptive fungal immunity

  • Dr. Michail Lionakis
• 35 min
  70. Parasite immunity: introduction and Plasmodium

  • Dr. Catarina Gadelha
• 23 min
  71. Drug-free remission in rheumatoid arthritis: wishful thinking or achievable goal?

  • Dr. Kenneth F. Baker
• 30 min
  72. Parasite immunity: Leishmania and Schistosoma

  • Dr. Catarina Gadelha
• 32 min
  73. Vaccination

  • Dr. Anita Milicic
• 45 min
  74. The history of vaccines 1

  • Prof. Emeritus Anthony R. Rees
• 60 min
  75. The history of vaccines 2

  • Prof. Emeritus Anthony R. Rees
• 72 min
  76. The history of vaccines 3

  • Prof. Emeritus Anthony R. Rees
• 36 min
  77. The science of vaccine adjuvants

  • Dr. Derek O'Hagan
• Translational immunology - hypersensitivity, autoimmune disease and their management
• 26 min
  78. Hypersensitivity diseases: type 1 hypersensitivity

  • Prof. Herman Waldmann
• 41 min
  79. Innate lymphoid cells in allergy

  • Prof. Emeritus Shigeo Koyasu
• 47 min
  80. Hypersensitivity diseases: type II-IV hypersensitivity

  • Prof. Sara Marshall
• 23 min
  81. Immune memory underlying lifelong peanut allergy

  • Dr. Kelly Bruton
• 24 min
  82. Memory B cells in allergy: B cell activation and response

  • Dr. Kelly Bruton
• 23 min
  83. Memory B cells in allergy: ontogeny, phenotype and plasticity

  • Dr. Kelly Bruton
• 42 min
  84. B cells at the crossroads of autoimmune diseases

  • Dr. Xiang Lin
• 24 min
  85. Interleukin-17: from clone to clinic

  • Prof. Leonie Taams
• 29 min
  86. Antibodies to control or prevent type 1 diabetes

  • Dr. Robert Hilbrands
• 45 min
  87. Autoimmunity and type 1 diabetes

  • Prof. Emerita Anne Cooke
• 37 min
  88. What is new in type 1 diabetes?

  • Prof. Åke Lernmark
• 45 min
  89. Monoclonal antibodies in haemato-oncology

  • Prof. Mark Cragg
• 49 min
  90. Therapeutic antibodies

  • Dr. Geoffrey Hale
• 26 min
  91. Endothelial cells: regulators of autoimmune-neuroinflammation

  • Dr. Laure Garnier
• 30 min
  92. Neuroimmunometabolism

  • Prof. Ana Domingos
• 20 min
  93. The immunology of multiple sclerosis

  • Dr. Joanne Jones
• 23 min
  94. Immunology of the peripheral nervous system: the inflammatory neuropathies

  • Dr. Simon Rinaldi
• 26 min
  95. Ocular immunology: an overview of immune mechanisms operating in the eye

  • Dr. Eleftherios Agorogiannis
• 38 min
  96. Understanding myasthenia gravis and advances in its management

  • Prof. Henry J. Kaminski
• 25 min
  97. The immunology underlying rheumatic diseases

  • Dr. Hussein Al-Mossawi
• 40 min
  98. Modern management of rheumatoid arthritis - with a focus on biologic therapies

  • Prof. John Isaacs
• 42 min
  99. Complement and lupus

  • Prof. Marina Botto
• 38 min
  100. Immune mechanisms in liver diseases

  • Prof. Paul Klenerman
• Translational immunology - transplantation immunology
• 49 min
  101. Principles of transplantation: overview of the immune response

  • Prof. Emerita Kathryn Wood
• 47 min
  102. Factors influencing outcomes in clinical transplantation 1

  • Prof. Emerita Kathryn Wood
• 40 min
  103. Factors influencing outcomes in clinical transplantation 2

  • Prof. Emerita Kathryn Wood
• Translational immunology - cancer immunology
• 25 min
  104. Cancer immunology

  • Prof. Tim Elliott
• 32 min
  105. Cancer immunotherapy

  • Prof. Tim Elliott
• 41 min
  106. Myeloid-derived suppressor cells in cancer

  • Prof. Dmitry Gabrilovich
• 40 min
  107. IL-2 in the immunotherapy of autoimmunity and cancer

  • Prof. Thomas Malek
• 28 min
  108. Latest advances in the development of CAR & TCR T-cell treatments for solid tumours

  • Dr. Else Marit Inderberg

Printable Handouts

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Navigable Slide Index

1. Introduction
2. Overview
3. Inflammatory neuropathies
4. Clinical spectrum
5. Clinical presentation
6. Spectra
7. Acute inflammatory neuropathies
8. Chronic inflammatory neuropathies
9. Pattern in “typical” cases
10. GBS versus CIDP
11. Targets and mechanisms
12. Potential mechanisms
13. Potential effector mechanisms for nerve injury
14. Methods to study or define pathological mechanisms
15. Early evidence for neuropathy-associated anti-carbohydrate antibodies
16. IgG antibodies to ganglioside in GBS
17. Anti-ganglioside antibodies in the inflammatory neuropathies
18. A true case of molecular mimicry?
19. The node as a target for inflammatory neuropathy-associated antibodies
20. Induced pluripotent SC derived sensory neurons
21. Ganglioside antibody targeting nodal axolemma
22. Calcium influx in sensory soma
23. Calcium fluxes are a prelude to axonal degeneration
24. Analysis of the electrophysiological effects of disialosyl antibodies and complement
25. Reversible conduction failure vs. axonal degeneration
26. GM1 & sulfatide antibodies may target glia directly
27. Glial injury is followed by axolemmal nanoruptures, calcium influx, and secondary axonal degeneration
28. Myelin proteins and T cells?
29. The node of Ranvier
30. Identification of specific antigens by immunoprecipitation
31. Nodal/paranodal reactive antibodies in patients with inflammatory neuropathies
32. Nodal/paranodal antibody syndromes: autoimmune nodopathies
33. Nodal and paranodal antibody-associated neuropathies
34. IgG4
35. IgG4 does not activate complement
36. Anti-contactin IgG4 antibodies have a (potentially) pathogenic “blocking” effect
37. Anti-contactin IgG4 antibodies can disrupt nodal architecture
38. Anti-neurofascin-155 IgG4 antibodies prevent paranodal complex formation in vivo
39. Contrasting pathological importance of monovalent versus bivalent paranodal antibodies
40. CNTN1 immune complexes drive nephropathy?
41. CNTN1 positive immune complexes are found in glomeruli
42. Anti-CNTNI IgG3 induces acute conduction block and motor deficits in a passive transfer rat model
43. panNF antibodies activate complement and disrupt myelin, nodal, and paranodal structure
44. Established and upcoming therapies
45. Established therapies
46. Plasma exchange
47. IVIg
48. Rituximab
49. Treatments and their effects on neuropathies
50. Autoimmune nodopathies: treatment implications
51. Rituximab appears effective
52. Other approaches
53. Imlifidase: an approach to eliminate pathogenic IgG
54. 15-HMedIdeS-09: imlifidase in GBS patients
55. FcRN inhibition
56. ARGX-113-1802/Adhere
57. Complement inhibition with a C5 convertase blocking mAb precent MAC pore deposition
58. Eculizumab maintains nerve terminal integrity and prevents functional impairment
59. Complement inhibition in GBS
60. ANX005
61. Protection of axonal and nodal integrity via overexpression of calpastatin
62. Summary

Topics Covered

• Inflammatory neuropathies
• Acute inflammatory neuropathies
• Chronic inflammatory neuropathies
• Guillain-Barré syndrome (GBS)
• Chronic inflammatory demyelinating polyradicuoloneuropathy (CIDP)
• Anti-ganglioside antibodies
• GM1 and sulfatide antibodies
• The node of Ranvier
• IgG4
• CNTN1 immune complexes
• Established and upcoming therapies

Links

Series:

• The Immune System - Key Concepts and Questions
• Periodic Reports: Advances in Clinical Interventions and Research Platforms

Categories:

• Immunology
• Neuroscience

Therapeutic Areas:

• Immunology & Inflammation
• Neurology

Talk Citation

Publication History

• Published on April 30, 2025

Financial Disclosures

• Dr. Rinaldi has received honoraria for lectures given at the request of Excemed, Fresenius, CSL Behring, UCB, argenx, the Beijing Association of Holistic and Integrated Medicine, and the Irish Institute of Clinical Neuroscience. He has been a paid consultant for argenx, Annexon, Dianthus, Takeda and Hansa Biopharma. He runs a not-for-profit diagnostic testing service for nodal/paranodal antibodies.